ANALYSIS OF THE INFLUENCE OF TRANSMISSION RESOURCES CONTROL IN TREE STRUCTURE NETWORKS

Authors

  • Sławomir Bujnowski
  • Tomasz Marciniak
  • Beata Marciniak
  • Zbigniew Lutowski
  • Adam Marchewka

Abstract

The aim of the paper is to draw attention to the possibility of improving the transmission properties of telecommunication networks by subordinating the capacity of individual links to the frequency of their occurrence in a set of minimum length paths. The defined
unevenness coefficient was used to divide the global transmission resources of the network in order to make the traffic carried by this network as large as possible. The article presents the results of the simulation tests to which tree topology network was subjected.

References

Coffman, K. G., Odlyzko, A. M. (2001). Growth of the internet, Optical Fiber Telecommunications IV, IP Kaminow and T. Li, eds.

Cisco Visual Networking Index (VNI) Global Mobile Data Traffic Forecast 2016-2021

Ramaswami, R., Sivarajan, K., Sasaki, G. (2009). Optical networks: a practical perspective. Morgan Kaufmann

Radoslavov, P., Tangmunarunkit, H., Yu, H., Govindan, R., Shenker, S., Estrin, D. (2000). On characterizing network topologies and analyzing their impact on protocol design

Strijkers, R., Cristea, M., Korkhov, V., Marchal, D., Belloum, A., de Laat, C., Meijer, R. (2010, July). Network resource control for grid workflow management systems. In 2010 6th World Congress on Services (pp. 318-325). IEEE

Kotsis, G. (1992). Interconnection topologies and routing for parallel processing systems

Xu, J. (2013). Topological structure and analysis of interconnection networks (Vol. 7). Springer Science & Business Media

Pavan, C., Morais, R. M., da Rocha, J. R. F., Pinto, A. N. (2010). Generating realistic optical transport network topologies. Journal of Optical Communications and Networking, 2(1), 80-90

Deswal, S., Singhrova, A. (2012). Application of graph theory in communication networks. International Journal of Application or Innovation in Engineering & Management, 1(2), 66-70

Likaj, R., Shala, A., Mehmetaj, M., Hyseni, P., Bajrami, X. (2013). Application of graph theory to find optimal paths for the transportation problem. IFAC Proceedings Volumes, 46(8), 235-240

Drzycimski, Z. Bujnowski. D.(2018). Analiza mozliwożlwości poprawy własności transmisyjnych sieci dzięki zastosowaniu sterowania jej zasobami. Przegląd Telekomunikacyjny - 2018, 8-9, 760-763

Deo, N. (1980). Teoria grafow i jej zastosowania w technice i informatyce, Wydawnictwo Naukowe PWN

Diestel, R., Leader, I. (2001). A conjecture concerning a limit of non-Cayley graphs. Journal of Algebraic Combinatorics, 14(1), 17-25

Published

2020-05-24

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